Low temperature thermal and electrical transport properties of ZrZn 2 in high magnetic field

Y. Zou; M. Sutherland; S. Friedemann; S. M. Hayden; D. Rothfuss; A. Fleischmann; C. Enss; F. M. Grosche

doi:10.1088/1742-6596/391/1/012116

Low temperature thermal and electrical transport properties of ZrZn 2 in high magnetic field

Y. Zou^*, M. Sutherland, S. Friedemann, S. M. Hayden, D. Rothfuss, A. Fleischmann, C. Enss, F. M. Grosche

^*Corresponding author for this work

Research output: Contribution to journal › Article (Academic Journal) › peer-review

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Abstract

The low temperature electrical and thermal transport properties of the itinerant ferromagnet ZrZn2 were investigated in order to explore the nature of the Fermi-liquid breakdown in this material. We have implemented electrical and thermal conductivity measurements down to temperatures of 100 mK and in high magnetic field. In zero field and above 2 K the electrical and effective thermal resistivities take a T^5/3 and T-linear form, respectively. These are the signatures of the marginal Fermi-liquid, predicted to occur close to a ferromagnetic quantum critical point by spin fluctuation theory. In contrast, we find that below 2 K and in external magnetic field the electrical resistivity assumes a quadratic temperature dependence, consistent with a return to conventional Fermi-liquid behaviour.

Original language	English
Article number	012116
Journal	Journal of Physics: Conference Series
Volume	391
Issue number	1
DOIs	https://doi.org/10.1088/1742-6596/391/1/012116
Publication status	Published - 2012

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title = "Low temperature thermal and electrical transport properties of ZrZn 2 in high magnetic field",

abstract = "The low temperature electrical and thermal transport properties of the itinerant ferromagnet ZrZn2 were investigated in order to explore the nature of the Fermi-liquid breakdown in this material. We have implemented electrical and thermal conductivity measurements down to temperatures of 100 mK and in high magnetic field. In zero field and above 2 K the electrical and effective thermal resistivities take a T5/3 and T-linear form, respectively. These are the signatures of the marginal Fermi-liquid, predicted to occur close to a ferromagnetic quantum critical point by spin fluctuation theory. In contrast, we find that below 2 K and in external magnetic field the electrical resistivity assumes a quadratic temperature dependence, consistent with a return to conventional Fermi-liquid behaviour.",

author = "Y. Zou and M. Sutherland and S. Friedemann and Hayden, {S. M.} and D. Rothfuss and A. Fleischmann and C. Enss and Grosche, {F. M.}",

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T1 - Low temperature thermal and electrical transport properties of ZrZn 2 in high magnetic field

AU - Zou, Y.

AU - Sutherland, M.

AU - Friedemann, S.

AU - Hayden, S. M.

AU - Rothfuss, D.

AU - Fleischmann, A.

AU - Enss, C.

AU - Grosche, F. M.

PY - 2012

Y1 - 2012

N2 - The low temperature electrical and thermal transport properties of the itinerant ferromagnet ZrZn2 were investigated in order to explore the nature of the Fermi-liquid breakdown in this material. We have implemented electrical and thermal conductivity measurements down to temperatures of 100 mK and in high magnetic field. In zero field and above 2 K the electrical and effective thermal resistivities take a T5/3 and T-linear form, respectively. These are the signatures of the marginal Fermi-liquid, predicted to occur close to a ferromagnetic quantum critical point by spin fluctuation theory. In contrast, we find that below 2 K and in external magnetic field the electrical resistivity assumes a quadratic temperature dependence, consistent with a return to conventional Fermi-liquid behaviour.

AB - The low temperature electrical and thermal transport properties of the itinerant ferromagnet ZrZn2 were investigated in order to explore the nature of the Fermi-liquid breakdown in this material. We have implemented electrical and thermal conductivity measurements down to temperatures of 100 mK and in high magnetic field. In zero field and above 2 K the electrical and effective thermal resistivities take a T5/3 and T-linear form, respectively. These are the signatures of the marginal Fermi-liquid, predicted to occur close to a ferromagnetic quantum critical point by spin fluctuation theory. In contrast, we find that below 2 K and in external magnetic field the electrical resistivity assumes a quadratic temperature dependence, consistent with a return to conventional Fermi-liquid behaviour.

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DO - 10.1088/1742-6596/391/1/012116

M3 - Article (Academic Journal)

AN - SCOPUS:84874865196

VL - 391

JO - Journal of Physics: Conference Series

JF - Journal of Physics: Conference Series

SN - 1742-6588

IS - 1

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ER -

Low temperature thermal and electrical transport properties of ZrZn 2 in high magnetic field

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